Datoteka:Lens and wavefronts.gif
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Lens_and_wavefronts.gif (183 × 356 piksela, veličina datoteke: 35 KB, MIME tip: image/gif, animacija se ponavlja, 9 okvira, 0,7 s)
Sažetak
| Opis |
English: Illustration of wavefronts after passing through a lens. Interestingly, to produce a point source reverse the direction of the waves, with the focus point acting as a point source. |
| Datum | (UTC) |
| Izvor | Vlastito djelo postavljača |
| Autor | Oleg Alexandrov |
| Ostale inačice |
|
| GIF genesis |
Licencija
|
Ja, nositelj autorskog prava za ovo djelo, prepuštam ovo djelo u javno vlasništvo. Ovo prepuštanje vrijedi za cijeli svijet. U nekim državama to nije pravno moguće; ako je tako: Dajem svima prava da koriste ovo djelo za bilo koju svrhu, bez ikakvih uvjeta, osim ako takvi uvjeti nisu propisani zakonom. |
siingleline
% Illustration of planar wavefronts going through a lens and getting focused
% into a converging spherical wave
function main ()
% lens index
n=1.5;
% number of points, used for plotting
N = 100;
% radii of lens surfaces
R1 = 0.5;
R2 = 1.5;
% centers of circles (y coord is 0)
O1 = -2.9;
O2 = -O1;
% focal length
f = (n-1)*(1/R1+1/R2); f = 1/f;
% theta0 determines the width of the lens
theta0=pi/6;
Theta = linspace(-theta0, theta0, N);
% right face of the lens
L1x = R1*cos(Theta)+O1;
L1y =R1*sin(Theta);
% left size of the lens
L2x=-R2*cos(Theta)+O2;
L2y = R2*sin(Theta);
% flat top part
Topx = [L1x(N), L2x(N)];
Topy = [L1y(N), L2y(N)];
% flat bottom part
Botx = [L1x(1) L2x(1)];
Boty = [L1y(1), L2y(1)];
% the lens
Lensx = [L1x rv_vec(Topx), rv_vec(L2x), Botx];
Lensy = [L1y rv_vec(Topy), rv_vec(L2y), Boty];
% Parameters for graphing
Lens_color = [204, 226, 239]/256;
Lens_border = 0.3*[1, 1, 1];
lbw = 1.3; % lens border width
wavefr_color = [1, 0, 0];
wavefr_bdw = 2;
% spacing between wavefronts (both plane and spherical ones)
spacing = 0.25;
% 2*H is the height of the plane wavefronts
H = L1y(N);
% theta2 = slope of the line going from the upper-right
% end of the lens to the focus point
theta2 = atan(L1y(N)/(f-L1x(N)));
% Shape of the spherical wavefronts.
Theta = linspace(-theta2, theta2, N);
X = -cos(Theta);
Y = sin(Theta);
S = -f; % start ploting waves from here to the right
% number of frames in the movie
num_frames = 10;
Shifts = linspace(0, spacing, num_frames+1);
% start at S+shift, plot the wavefronts
for frame_no = 1:num_frames
shift = Shifts(frame_no);
s = S+shift;
% plotting window
figure(1); clf; hold on; axis equal; axis off;
% plot the plane wavefronts
while s < 0
plot([s, s], [-H, H], 'color', wavefr_color, 'linewidth', wavefr_bdw);
s = s + spacing;
end
% plot the spherical wavefronts
s = s - 10*spacing; % backtrack a bit
while s < f
rho = f-s;
if rho*Y(N) <= L1y(N)
plot(rho*X+f, rho*Y, 'color', wavefr_color, 'linewidth', wavefr_bdw);
end
s = s + spacing;
end
% plot the lens
fill(Lensx, Lensy, Lens_color, 'EdgeColor', Lens_border, 'LineWidth', lbw);
% get(H)
% return
% Invisible points to force MATLAB to keep the
% plotting window fixed.
tiny = 0.15*spacing;
white = 0.999*[1, 1, 1];
plot(S-tiny, H+tiny, 'color', white);
plot(S-tiny, -H-tiny, 'color', white);
plot(f+tiny, H+tiny, 'color', white);
plot(f+tiny, -H-tiny, 'color', white);
% Rotate by 90 degrees
set(gca, 'View', [90, 90])
% save current file
frame_file = sprintf('Frame%d.eps', 1000+frame_no);
disp(frame_file);
saveas(gcf, frame_file, 'psc2');
pause(0.07)
end
% The frames were converted to a movie with the command
% convert -antialias -loop 10000 -delay 8 -compress LZW Frame100* Lens_and_wavefronts.gif
function W = rv_vec(V)
K = length(V);
W = V;
for i=1:K
W(i) = V(K-i+1);
end
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Kliknite na datum/vrijeme kako biste vidjeli datoteku kakva je tada bila.
| Datum/Vrijeme | Minijatura | Dimenzije | Suradnik | Komentar | |
|---|---|---|---|---|---|
| sadašnja | 07:35, 25. studenoga 2007. | | 183 × 356 (35 KB) | wikimediacommons>Oleg Alexandrov | tweak |
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